CN101891071B - Control method of paper feed interval and lamina thermal overlapping device using same - Google Patents
Control method of paper feed interval and lamina thermal overlapping device using same Download PDFInfo
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- CN101891071B CN101891071B CN200910202944A CN200910202944A CN101891071B CN 101891071 B CN101891071 B CN 101891071B CN 200910202944 A CN200910202944 A CN 200910202944A CN 200910202944 A CN200910202944 A CN 200910202944A CN 101891071 B CN101891071 B CN 101891071B
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Abstract
The invention provides a control method of a paper feed interval and a lamina thermal polyunit using the same, wherein the lamina thermal polyunit at least comprises an automatic paper feed mechanism and a lamina thermal laminating mechanism and is used to be arranged on a plurality of sensors in the automatic paper feed mechanism so as to cause a plurality of files to be arranged in a mode of equal length interval and then to be fed into the lamina thermal laminating mechanism, thus the plurality of the files subject to plastic package can be cut into plastic packaged objects with the same size.
Description
Technical field
The present invention relates to the device of paper feeding method and this method of application, especially relate to a kind of flake thermal-superposition device of control method with this method of application of paper feed spacing.
Background technology
Because the autoamtic paper feeding technology is skillful day by day now, therefore applied to widely on chopping machine, duplicator and the affairs machine, its main purpose is presented the file of majority in these machines of entering, to reduce expending of manpower exactly automatically.
Yet; With existing automatic sheet feed mechanism; Because of its need getting final product in the certain feed-in machine of file, and need not consider whether a plurality of files are keeping isometric spacing arrangement each other in paper path, so; If directly existing automatic sheet feed mechanism is applied to flake thermal-superposition device, obviously will cause the difficulty in the operation.
For example, see also Fig. 1, it is for being applied to existing automatic sheet feed mechanism the conceptual schematic view of flake thermal-superposition device.Existing automatic sheet feed mechanism 11 comprises pickup roller 111 and paper path 112, and paper path 112 is between between pickup roller 111 and flake thermal-superposition mechanism 12, and paper output path 13 is positioned at the exit end of flake thermal-superposition mechanism 12.Wherein, Pickup roller 111 is in order to a plurality of file 14 feed-in paper path 112; And when a plurality of files 14 were fed entering flake thermal-superposition mechanism 12 via paper path 112, flake thermal-superposition mechanism 12 promptly began a plurality of files 14 are carried out the action of hot pressing (plastic packaging that promptly is commonly called as), and a plurality of files 16 of overmolded plastic package film 15 are sent into paper output path 13; At this moment; A plurality of files 16 of overmolded plastic package film cut via an automatic cutting mechanism 17, and a plurality of files 16 that make these overmolded plastic package films when arriving the position of cutting line 19, are cut into a plurality of plastic packaging things 18 by this automatic cutting mechanism 17.
Base this, if a plurality of files 16 of above-mentioned those overmolded plastic package films are with different spacing arrangement, will make cutting line 19 fall within the unsuitable position that cuts, cause differing of those plastic packaging things 18 sizes, even damage.
In view of this, file must just can solve the above problems with isometric spacing arrangement in paper path.
A kind of existing way is to utilize pickup roller, with the mode of interval one specified time or a specific range, in turn different files is sent into paper path respectively, with the control of long spacings such as reaching; Yet this way is because pickup roller is to utilize the friction force mode to carry out file feed, and the problem that still can cause time of file feed-in paper path to differ produces, so, obviously still be difficult to reach the purpose that makes the paper feed spacing isometric.
Summary of the invention
The technical matters that the present invention mainly solves is; Above-mentioned deficiency to the prior art existence; The flake thermal-superposition device that a kind of control method of paper feed spacing is provided and uses this method; So that the automatic sheet feed mechanism in the flake thermal-superposition device can arrange a plurality of files with isometric spacing distance, and be fed a flake thermal-superposition mechanism that gets in the flake thermal-superposition device in regular turn.
The technical solution adopted for the present invention to solve the technical problems provides a kind of control method of paper feed spacing; With so that a plurality of file with the arrangement mode of first-class long spacing; Be fed entering one flake thermal-superposition mechanism by automatic sheet feed mechanism, and this automatic sheet feed mechanism have pickup roller module, paper-feeding channel, conveying roller module and first sensor and second sensor; Wherein, this pickup roller module and/or this conveying roller module, are transferred in order to be connected in the file paper output of this flake thermal-superposition mechanism so that it is by the file paper feeding port of this automatic sheet feed mechanism in order to transmit these a plurality of files in this paper-feeding channel in regular turn; This method may further comprise the steps at least:
(A). utilize the pickup roller module that different files is presented from the file paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of pickup roller module and/or conveying roller module;
(B). utilize the first sensor detecting to be transmitted in the file in this paper-feeding channel, when the end of file is detected by this first sensor, make pickup roller module and/or this conveying roller module stop to transmit this document; And
(C). utilize second sensor detecting just being transmitted in this paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by this second sensor detecting then; Make the action of this pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of pickup roller module and/or conveying roller module; Wherein, second sensor is arranged at the rear of this first sensor with the distance of these long spacings of interval.
Said method utilizes second sensor detecting to be transmitted in this document in the paper-feeding channel in this step (A); When the end of this document by this second sensor detecting then, the pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
Said method utilizes the 3rd sensor detecting to be transmitted in this document in the paper-feeding channel in this step (A); And the 3rd sensor is between the file paper feeding port and second sensor; When the end of this document by the 3rd sensor detecting then, the pickup roller module begins to present this another file and is got in the paper-feeding channel by the file paper feeding port.
Said method utilizes one to be positioned at the terminal four-sensor of this paper-feeding channel, detects these a plurality of files and whether definitely presents this flake thermal-superposition mechanism of entering, and calculate the quantity of presenting these a plurality of files that get into this flake thermal-superposition mechanism.
The present invention also provides a kind of flake thermal-superposition device with automatic sheet feed mechanism, with so that a plurality of file with etc. the arrangement mode of long spacing, presenting action and being fed and get in the flake thermal-superposition mechanism via automatic sheet feed mechanism; Wherein, this automatic sheet feed mechanism comprises:
Paper-feeding channel is positioned at this automatic sheet feed mechanism, in order to the transmission path as these a plurality of files;
The pickup roller module is positioned near file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by this document paper feeding port in regular turn gets in this paper-feeding channel;
The conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to the file paper output in this paper-feeding channel; Wherein, this document paper output is connected in flake thermal-superposition mechanism; And
The first sensor and second sensor are all in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and this second sensor detecting that detects a file when this first sensor is during to the front end of another file; This two file will be simultaneously transmitted by pickup roller module and/or the conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed this flake thermal-superposition mechanism of entering in regular turn with arranging.
When the end of this document by second sensor detecting then, the pickup roller module begins to present this another file and is got in the paper-feeding channel by the file paper feeding port.
This automatic sheet feed mechanism also comprises the 3rd sensor, between this pickup roller module and this second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, the pickup roller module begins to present this another file and is got in the paper-feeding channel by the file paper feeding port.
When the end of this document is detected by this first sensor, make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of pickup roller module.
This conveying roller module comprises the first conveying roller group and the second conveying roller group; When the end of this document is detected by this first sensor; Make the first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this second conveying roller group.
This automatic sheet feed mechanism also comprises four-sensor, is positioned at the end of paper-feeding channel, whether definitely presents entering flake thermal-superposition mechanism in order to detect these a plurality of files, and calculates the quantity of presenting these a plurality of files that get into flake thermal-superposition mechanism.
The pickup roller module comprises pickup roller, comber and divides the scraps of paper; This pickup roller was in order to getting into paper-feeding channel by a plurality of file feeds; And this comber and the branch scraps of paper make the pickup roller module only present a file at every turn and get in the paper-feeding channel in order to this a plurality of file one friction force to be provided.
The present invention further provides a kind of control method of hot pressing spacing; With so that a plurality of file with etc. the arrangement mode of long spacing; After being carried out hot pressing action by flake thermal-superposition device; Supply automatic cutting mechanism that those are carried out a plurality of plastic packaging things that a plurality of files after the hot pressing action cut into identical size, and this flake thermal-superposition device have pickup roller module, paper-feeding channel, conveying roller module, first sensor and second sensor and hot pressing mechanism; Wherein, Paper-feeding channel is the transmission path of these a plurality of files; And pickup roller module and/or this conveying roller module are in order to a plurality of files in the transmission paper-feeding channel; So that it is transferred to the file paper output in regular turn by a file paper feeding port, and this document paper output is connected in the arrival end of this hot pressing mechanism, and this method may further comprise the steps at least:
(A). utilize the pickup roller module that different files is presented from the file paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of pickup roller module and/or conveying roller module;
(B). utilize the first sensor detecting to be transmitted in the file in the paper-feeding channel, when the end of this document is detected by this first sensor, make pickup roller module and/or conveying roller module stop to transmit this document;
(C). utilize second sensor detecting just being transmitted in the paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by second sensor detecting then; Make the action of pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of pickup roller module and/or conveying roller module; Wherein, second sensor is arranged at the rear of first sensor with the distance of these long spacings of interval; And
(D). utilize this hot pressing mechanism that the file that is transferred to this document paper output is begun to carry out this hot pressing action.
Said method utilizes second sensor detecting to be transmitted in this document in the paper-feeding channel in this step (A), when the end of this document by second sensor detecting then, the pickup roller module begins to present this another file and is got in the paper-feeding channel by the file paper feeding port.
Said method utilizes the 3rd sensor detecting to be transmitted in this document in the paper-feeding channel in this step (A); And the 3rd sensor is between the file paper feeding port and second sensor; When the end of this document by the 3rd sensor detecting then, the pickup roller module begins to present another file and is got in the paper-feeding channel by the file paper feeding port.
Said method utilization is positioned at the terminal four-sensor of paper-feeding channel, detects a plurality of files and whether definitely presents entering hot pressing mechanism, and calculate the quantity of presenting these a plurality of files that get into hot pressing mechanism.
The present invention also provides a kind of flake thermal-superposition device; With so that a plurality of file with etc. the arrangement mode of long spacing carry out the hot pressing action; Supply automatic cutting mechanism will be carried out a plurality of plastic packaging things that a plurality of files after the hot pressing action cut into identical size, this flake thermal-superposition device comprises:
Hot pressing mechanism is in order to carry out the hot pressing action to these a plurality of files;
Paper-feeding channel is positioned at flake thermal-superposition device, in order to the transmission path as these a plurality of files;
The pickup roller module is positioned near file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by the file paper feeding port in regular turn gets in the paper-feeding channel;
The conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to the file paper output in the paper-feeding channel; Wherein, file paper output system is connected in hot pressing mechanism; And
The first sensor and second sensor are all in order to detect the transmission state of these a plurality of files in paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and second sensor detecting that detects a file when first sensor is during to the front end of another file; This two file will be simultaneously transmitted by pickup roller module and/or the conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed entering hot pressing mechanism in regular turn with arranging.
When the end of this document by this second sensor detecting then, the pickup roller module begins to present another file and is got in the paper-feeding channel by the file paper feeding port.
Said flake thermal-superposition device also comprises the 3rd sensor, between the pickup roller module and second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, the pickup roller module begins to present this another file and is got in the paper-feeding channel by the file paper feeding port.
When the end of this document is detected by this first sensor, make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of pickup roller module.
This conveying roller module comprises the first conveying roller group and the second conveying roller group; When the end of this document is detected by first sensor; Make the first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of the second conveying roller group.
Said flake thermal-superposition device also comprises four-sensor, is positioned at the end of paper-feeding channel, whether definitely presents entering hot pressing mechanism in order to detect these a plurality of files, and calculates the quantity of presenting these a plurality of files that get into this hot pressing mechanism.
This pickup roller module comprises pickup roller, comber and divides the scraps of paper; This pickup roller was in order to getting into paper-feeding channel by a plurality of file feeds; And the comber and the branch scraps of paper make the pickup roller module only present a file at every turn and get in this paper-feeding channel in order to this a plurality of file one friction force to be provided.
The present invention can make the automatic sheet feed mechanism in the flake thermal-superposition device that a plurality of files are arranged with isometric spacing distance; And be fed in regular turn in the flake thermal-superposition mechanism that gets into flake thermal-superposition device, so that can easily a plurality of files be cut into the identical plastic packaging thing of size behind plastic packaging.
Description of drawings
Fig. 1 is the conceptual schematic view that existing automatic sheet feed mechanism is applied to flake thermal-superposition device.
Fig. 2 is the structural representation of flake thermal-superposition device first preferred embodiment of the present invention's control method of using the paper feed spacing.
Fig. 3 is the structural representation of flake thermal-superposition device second preferred embodiment of the present invention's control method of using the paper feed spacing.
Fig. 4 is the schematic block follow diagram of the control method preferred embodiment of paper feed spacing of the present invention.
The specific embodiment
See also Fig. 2, it uses the structural representation of flake thermal-superposition device first preferred embodiment of the control method of paper feed spacing for the present invention.This flake thermal-superposition device comprises an automatic sheet feed mechanism 2 and a flake thermal-superposition mechanism 3 at least, and flake thermal-superposition mechanism 3 is connected in the end of the document conveyance path of automatic sheet feed mechanism 2.This automatic sheet feed mechanism 2 comprises file paper feeding port 20, file paper output 21, paper-feeding channel 22, pickup roller module 23, first sensor 24, second sensor 25 and the four-sensor 27, and conveying roller module 28.Wherein, pickup roller module 23 is positioned at file paper feeding port 20 parts, and comprises pickup roller 231, comber 232 and divide the scraps of paper 233; And paper-feeding channel 22 is as the transmission path of file, and between file paper feeding port 20 and file paper output 21; 21 arrival ends that are connected in flake thermal-superposition mechanism 3 of this document paper output.In addition, pickup roller module 23 is positioned at the file of paper-feeding channel 22 with conveying roller module 28 in order to transmission, and utilizes first, second and four- sensor 24,25,27 to detect the transmission state of file respectively; Wherein, first and second sensor 24,25 is provided with spacing distance D at interval.
See also Fig. 3, it uses the structural representation of flake thermal-superposition device second preferred embodiment of the control method of paper feed spacing for the present invention.The different part of structure of this second preferred embodiment and first preferred embodiment is divided into the first conveying roller group 281 and the second conveying roller group 282 for its conveying roller module 28; The first conveying roller group 281 is transmitted the file that is positioned at paper-feeding channel 22 in order to the pickup roller module 23 that replaces first preferred embodiment, and the automatic sheet feed mechanism in second preferred embodiment 2 more comprises the 3rd sensor 26 in order to detecting file transfer state.
Next, further introduce the control method preferred embodiment of paper feed spacing of the present invention.See also Fig. 4, it is the block flow diagram of the control method preferred embodiment of paper feed spacing of the present invention.
Step S1: utilize pickup roller module 23 that different files is presented from file paper feeding port 20 respectively in turn and get in the paper-feeding channel 22, and these files are advanced by transmission in regular turn with the operation of pickup roller module 23 and/or conveying roller module 28;
Step S2: utilize first sensor 24 detectings to be transmitted in the file in the paper-feeding channel 22, when the end of this document is detected by first sensor 24, make conveying roller module 28 stop to transmit this document;
Step S3: utilize second sensor 25 to detect another file that just is being transmitted in the paper-feeding channel 22 and is being positioned at first sensor 24 rear paper of detecting; When the front end of this another file is detected by second sensor 25; Make conveying roller module 28 recover the action of transmission first sensor 24 file of detecting, this another file then continues to be transmitted forward with the operation of pickup roller module 23 and/or conveying roller module 28; And
Step S4: utilize flake thermal-superposition mechanism 3 to begin these files that is transferred to file paper output 21 are carried out the hot pressing action.
With Fig. 2 and Fig. 3 spirit of the present invention is described again at present; Please consult Fig. 2 and Fig. 3 once again; Suppose that automatic sheet feed mechanism 2 promptly brings into operation before flake thermal-superposition mechanism 3 carries out the hot pressing action, this moment, pickup roller 231 was fed to comber 232 places with file by file paper feeding port 20; And the comber 232 and the branch scraps of paper 233 make pickup roller module 23 only can present a file at every turn and get in the paper-feeding channel 22 in order to provide file one friction force.
Wherein, the part about friction force needs special version: that is the friction force between file, the branch scraps of paper 233 and the comber 232 must pass through special design, under preferable situation, as meets U
3>U
1>U
2Condition, will help presenting of file; Wherein, U
1Be the friction force of file to minute scraps of paper 233, U
2Be the friction force of file, U
3Be the friction force of file to comber 232.
In step S1 shown in Figure 4; The practice of first preferred embodiment (seeing also Fig. 2) gets into paper-feeding channel 22 for utilizing pickup roller module 23 to present a file (to call first file in the following text); First file was transmitted with the operation of pickup roller module 23 and conveying roller module 28 and advanced this moment; When the end of first file is detected by second sensor 25; Except that it still continued to be transferred forward with the operation of pickup roller module 23 and conveying roller module 28, pickup roller module 23 began to present another file (to call second file in the following text) and gets in the paper-feeding channel 22.
The practice of second preferred embodiment (seeing also Fig. 3) is also utilized pickup roller module 23 to present first file and is got into paper-feeding channel 22; And first file was transmitted with the operation of the first conveying roller group 281 (also can be pickup roller module 23) and the second conveying roller group 282 and advanced this moment; And when the end of first file by the 3rd sensor 26 (also can be second sensor 25) when detecting; Except that it still continued to be transferred forward with the operation of the first conveying roller group 281 (also can be pickup roller module 23) and the second conveying roller group 282, pickup roller module 23 began to present second file and gets in the paper-feeding channel 22.
Then get into step S2 shown in Figure 4, S3; In first preferred embodiment, (see also Fig. 2); When the end that continues to be transferred first file is forward detected by first sensor 24; Conveying roller module 28 is out of service immediately, advances so that first file is synchronized to stop to transmit, and waits for that second file at rear is detected by second sensor 25.In case the front end of second file is detected by second sensor 25; Conveying roller module 28 is resumed operation immediately; Advance so that first file is synchronized to recover to transmit, and second file also continues to be transmitted forward with the operation of pickup roller module 23 with conveying roller module 28.
In second preferred embodiment (seeing also Fig. 3); When the end that continues to be transferred first file is forward detected by first sensor 24; The second conveying roller group 282 is out of service immediately; Advance so that first file is synchronized to stop to transmit, and second file at wait rear is by 25 detectings of second sensor.In case the front end of second file is detected by second sensor 25; The second conveying roller group 282 is resumed operation immediately; Advance so that first file is synchronized to recover to transmit, and second file also continues to be transmitted forward with the operation of the first conveying roller group 281 (also can be pickup roller module 23) with the second conveying roller group 282.
What need special version is; Because first and second sensor 24,25; Be provided with the separation distance B; Therefore when the front end of second file detected by second sensor 25 and the end of first file by first sensor detecting 24 then, those files then are transmitted simultaneously and advance, and make length arrangement that those files can the fixed interval distance B and present and get into flake thermal-superposition mechanism 3.
In addition, other is presented a plurality of files that get in the paper-feeding channel 22 in regular turn with getting group roller module 23 after second file, also can be according to above-mentioned control method, and make it with the length arrangement of fixed interval distance B and be fed and get into flake thermal-superposition mechanism 3.
Before these file feeds are got into flake thermal-superposition mechanism 3; More can set up four-sensor 27 in paper-feeding channel 22 ends; Whether definitely present entering flake thermal-superposition mechanism 3 in order to detect these files; Its function is except the quantity that can calculate these files, also can avoid having in the automatic sheet feed mechanism 2 paperboard or other fault unexpected and do not come to light.
At last; According to step S4 shown in Figure 4; Utilize thin slice hot pressing mechanism 3 that these files that are transferred to file paper output 21 are begun to carry out the hot pressing action; And utilize and to be connected the automatic cutting mechanism (not being shown in Fig. 2 and Fig. 3) in thin slice hot pressing mechanism 3 exit end, these are carried out file after the hot pressing action carry out one and cut action; At this moment, owing to these files have been fixed interval distance B arrangement, therefore cutting mechanism only needs one set time of interval carry out this and cuts action automatically, can easily these files that carry out after hot pressing moves be cut into the identical plastic packaging thing of size.
The above is merely preferred embodiment of the present invention, is not in order to limiting claim of the present invention, and therefore all other do not break away from the equivalence of being accomplished under the disclosed spirit and change or modify, and all should be contained in the claim of the present invention.
Claims (22)
1. the control method of a paper feed spacing; It is characterized in that; With so that a plurality of file with the arrangement mode of first-class long spacing; Be fed entering one flake thermal-superposition mechanism by an automatic sheet feed mechanism, and this automatic sheet feed mechanism have a pickup roller module, a paper-feeding channel, a conveying roller module and the first sensor and second sensor; Wherein, This pickup roller module and/or this conveying roller module are in order to transmit these a plurality of files in this paper-feeding channel; So that it is by a file paper feeding port of this automatic sheet feed mechanism, transferred in regular turn in order to be connected in a file paper output of this flake thermal-superposition mechanism; This method may further comprise the steps at least:
(A). utilize this pickup roller module that different files is presented from this document paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of this pickup roller module and/or this conveying roller module;
(B). utilize this first sensor detecting to be transmitted in the file in this paper-feeding channel, when the end of this document is detected by this first sensor, make this pickup roller module and/or this conveying roller module stop to transmit this document; And
(C). utilize this second sensor detecting just being transmitted in this paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by this second sensor detecting then; Make the action of this pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of this pickup roller module and/or this conveying roller module; Wherein, this second sensor is arranged at the rear of this first sensor with the distance of these long spacings of interval.
2. the method for claim 1; It is characterized in that; In this step (A), utilize this second sensor detecting to be transmitted in this document in this paper-feeding channel; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
3. the method for claim 1; It is characterized in that; In this step (A), utilize one the 3rd sensor detecting to be transmitted in this document in this paper-feeding channel; And the 3rd sensor is between this document paper feeding port and this second sensor, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
4. the method for claim 1; It is characterized in that; Utilize one to be positioned at the 3rd terminal sensor of this paper-feeding channel, detect these a plurality of files and whether definitely present this flake thermal-superposition mechanism of entering, and calculate the quantity of presenting these a plurality of files that get into this flake thermal-superposition mechanism.
5. the flake thermal-superposition device with automatic sheet feed mechanism is characterized in that, with so that a plurality of file with the arrangement mode of first-class long spacing, presenting action and being fed and get in the flake thermal-superposition mechanism via an automatic sheet feed mechanism; Wherein, this automatic sheet feed mechanism comprises:
One paper-feeding channel is positioned at this automatic sheet feed mechanism, in order to the transmission path as these a plurality of files;
One pickup roller module is positioned near a file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by this document paper feeding port in regular turn gets in this paper-feeding channel;
One conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to a file paper output in this paper-feeding channel; Wherein, this document paper output is connected in this flake thermal-superposition mechanism; And
The first sensor and second sensor are in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and this second sensor detecting that detects a file when this first sensor is during to the front end of another file; This two file will be simultaneously transmitted by this pickup roller module and/or this conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed this flake thermal-superposition mechanism of entering in regular turn with arranging.
6. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
7. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This automatic sheet feed mechanism also comprises one the 3rd sensor, between this pickup roller module and this second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
8. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; When the end of this document is detected by this first sensor; Make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this pickup roller module.
9. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This conveying roller module comprises the first conveying roller group and the second conveying roller group, when the end of this document is detected by this first sensor, makes this first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this second conveying roller group.
10. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This automatic sheet feed mechanism also comprises one the 3rd sensor; Be positioned at the end of this paper-feeding channel, whether definitely present this flake thermal-superposition mechanism of entering in order to detect these a plurality of files, and calculate the quantity of presenting these a plurality of files that get into this flake thermal-superposition mechanism.
11. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This pickup roller module comprises a pickup roller, a comber and one fen scraps of paper; This pickup roller in order to should be a plurality of file feeds get into these paper-feeding channels, and this comber with divide the scraps of paper in order to this a plurality of file one friction force to be provided, make this pickup roller module only present a file at every turn and get in this paper-feeding channel.
12. the control method of a hot pressing spacing; It is characterized in that; With so that a plurality of file with the arrangement mode of first-class long spacing; After being carried out hot pressing action by a flake thermal-superposition device, supply an automatic cutting mechanism that this quilt is carried out a plurality of plastic packaging things that a plurality of files after hot pressing moves cut into identical size, and this flake thermal-superposition device have a pickup roller module, a paper-feeding channel, a conveying roller module, first sensor and second sensor and a hot pressing mechanism; Wherein, This paper-feeding channel is the transmission path of these a plurality of files; And this pickup roller module and/or this conveying roller module are in order to transmit these a plurality of files in this paper-feeding channel; So that it is transferred to a file paper output in regular turn by a file paper feeding port, and this document paper output is connected in an arrival end of this hot pressing mechanism, and this method may further comprise the steps at least:
(A). utilize this pickup roller module that different files is presented from this document paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of this pickup roller module and/or this conveying roller module;
(B). utilize this first sensor detecting to be transmitted in the file in this paper-feeding channel, when the end of this document is detected by this first sensor, make this pickup roller module and/or this conveying roller module stop to transmit this document;
(C). utilize this second sensor detecting just being transmitted in this paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by this second sensor detecting then; Make the action of this pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of this pickup roller module and/or this conveying roller module; Wherein, this second sensor is arranged at the rear of this first sensor with the distance of these long spacings of interval; And
(D). utilize this hot pressing mechanism that the file that is transferred to this document paper output is begun to carry out this hot pressing action.
13. method as claimed in claim 12; It is characterized in that; In this step (A), utilize this second sensor detecting to be transmitted in this document in this paper-feeding channel; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
14. method as claimed in claim 12; It is characterized in that; In this step (A), utilize one the 3rd sensor detecting to be transmitted in this document in this paper-feeding channel; And the 3rd sensor is between this document paper feeding port and this second sensor, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
15. method as claimed in claim 12; It is characterized in that; Utilize one to be positioned at one the 3rd terminal sensor of this paper-feeding channel, detect these a plurality of files and whether definitely present this hot pressing mechanism of entering, and calculate the quantity of presenting these a plurality of files that get into this hot pressing mechanism.
16. flake thermal-superposition device; It is characterized in that; With so that a plurality of file carries out hot pressing action with the arrangement mode of first-class long spacing; Supply an automatic cutting mechanism that this quilt is carried out a plurality of plastic packaging things that a plurality of files after hot pressing moves cut into identical size, this flake thermal-superposition device comprises:
One hot pressing mechanism is in order to carry out this hot pressing action to these a plurality of files;
One paper-feeding channel is positioned at this flake thermal-superposition device, in order to the transmission path as these a plurality of files;
One pickup roller module is positioned near a file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by this document paper feeding port in regular turn gets in this paper-feeding channel;
One conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to a file paper output in this paper-feeding channel; Wherein, this document paper output system is connected in this hot pressing mechanism; And
The first sensor and second sensor are in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and this second sensor detecting that detects a file when this first sensor is during to the front end of another file; This two file will be simultaneously transmitted by this pickup roller module and/or this conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed this hot pressing mechanism of entering in regular turn with arranging.
17. flake thermal-superposition device as claimed in claim 16 is characterized in that, when the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
18. flake thermal-superposition device as claimed in claim 16 is characterized in that, also comprises one the 3rd sensor, between this pickup roller module and this second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.
19. flake thermal-superposition device as claimed in claim 16; It is characterized in that; When the end of this document is detected by this first sensor; Make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this pickup roller module.
20. flake thermal-superposition device as claimed in claim 16; It is characterized in that; This conveying roller module comprises the first conveying roller group and the second conveying roller group, when the end of this document is detected by this first sensor, makes this first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this second conveying roller group.
21. flake thermal-superposition device as claimed in claim 16; It is characterized in that; Also comprise one the 3rd sensor; Be positioned at the end of this paper-feeding channel, whether definitely present this hot pressing mechanism of entering in order to detect these a plurality of files, and calculate the quantity of presenting these a plurality of files that get into this hot pressing mechanism.
22. flake thermal-superposition device as claimed in claim 16; It is characterized in that; This pickup roller module comprises a pickup roller, a comber and one fen scraps of paper; This pickup roller in order to should be a plurality of file feeds get into these paper-feeding channels, and this comber with divide the scraps of paper in order to this a plurality of file one friction force to be provided, make this pickup roller module only present a file at every turn and get in this paper-feeding channel.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910202944A CN101891071B (en) | 2009-05-22 | 2009-05-22 | Control method of paper feed interval and lamina thermal overlapping device using same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910202944A CN101891071B (en) | 2009-05-22 | 2009-05-22 | Control method of paper feed interval and lamina thermal overlapping device using same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN101891071A CN101891071A (en) | 2010-11-24 |
| CN101891071B true CN101891071B (en) | 2012-09-05 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN200910202944A Expired - Fee Related CN101891071B (en) | 2009-05-22 | 2009-05-22 | Control method of paper feed interval and lamina thermal overlapping device using same |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN101891071B (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107512089A (en) * | 2017-08-24 | 2017-12-26 | 成都西华升腾科技有限公司 | A kind of high definition temperature-sensitive scanning and printing equipment |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1212641A (en) * | 1996-02-27 | 1999-03-31 | 西门子公司 | Method of controlling device for removing flat items of post from stack |
| US6536497B2 (en) * | 2001-04-18 | 2003-03-25 | Banner American Products, Inc. | Laminating system |
| CN1590259A (en) * | 2003-09-03 | 2005-03-09 | 株式会社东芝 | Paper sheet separation and transfer apparatus |
| TW200711823A (en) * | 2005-09-30 | 2007-04-01 | Primax Electronics Ltd | Laminating device and laminating method for use in same |
-
2009
- 2009-05-22 CN CN200910202944A patent/CN101891071B/en not_active Expired - Fee Related
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1212641A (en) * | 1996-02-27 | 1999-03-31 | 西门子公司 | Method of controlling device for removing flat items of post from stack |
| US6536497B2 (en) * | 2001-04-18 | 2003-03-25 | Banner American Products, Inc. | Laminating system |
| CN1590259A (en) * | 2003-09-03 | 2005-03-09 | 株式会社东芝 | Paper sheet separation and transfer apparatus |
| TW200711823A (en) * | 2005-09-30 | 2007-04-01 | Primax Electronics Ltd | Laminating device and laminating method for use in same |
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| Publication number | Publication date |
|---|---|
| CN101891071A (en) | 2010-11-24 |
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